Concept explainers
a. Using only the valence atomic orbitals of a hydrogen atom and a fluorine atom, and following
the model of Figure 9.46 C, how many MOs would you expect for the HF molecule?
b. How many of the MOs from part (a) would be occupied by electrons?
c. It turns out that the difference in energies between the valence atomic orbitals of H and F are sufficiently different that we can neglect the interaction of the Is orbital of hydrogen with the 2s orbital of fluorine. The Is orbital of hydrogen will mix only with one 2P orbital of fluorine. Draw pictures showing the proper orientatlon of all three 2P orbitals on F interacting with a Is orbital on H. Which of the 2P orbitals can actually make a bond with a Is orbital, assuming that the atoms lie on the z-axis?
d. In the most accepted picture of HF, all the other atomic orbitals on fluorine move over at the
same energy into the molecular orbital energy-level diagram for I-IF. These are called "nonbonding orbitals." Sketch the energy-level diagram for HF using this information and calculate the bond order, (Nonbonding electrons do not contribute to bond order.)
e. Look at the Lewis structure for HE, Where are the nonbonding electrons?
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Chapter 9 Solutions
CHEMISTRY THE CENTRAL SCIENCE >EBOOK<
- Draw the delocalized molecular orbitals for the following molecule. Are both bonds of the triple bond involved in the delocalized orbitals?arrow_forwardWhen is it desirable to use MO theory rather than valence bond theory?arrow_forwardThe MO of the ground state of a heteronuclear diatomicmoleculeAB is mol=CAA+CBB If a bonding electron spends 90% of its time in an orbital A on atom A and 10% of its time in B on atom B, what are the values of CA and CB ? (Neglect the overlap of the two orbitals.)arrow_forward
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- Use the following picture to solve for a and b.arrow_forwardQ1. Describe what happens in the LCAO method of MO creation. Q2. Draw the MO diagram of H2 and predict its bond order Q3. Make sketches of the possible bonding and antibonding combinations of atomic orbitals in the homodiatomic molecule O2. Q4. Draw the MO diagram of and O2 and calculate bond order Q5. Draw the MO diagram for N2 and calculate bond orderarrow_forwardStudy the following sketch of a molecular orbital (MO) in a homonuclear diatomic molecule. This MO was formed by combining one 3p atomic orbital from each atom. O The dark dots in this sketch are the nuclei. Now use the sketch to complete the table below. Write the symbol for this MO. Is this a bonding or antibonding MO? What is the energy of this MO, compared to the energy of a 3p orbital on one of the separate. atoms? 0 O bonding O antibonding ο οποίο O higher O lower O the same not enough information to decide a 2 Do X B 5 Śarrow_forward
- Study the following sketch of a molecular orbital (MO) in a homonuclear diatomic molecule. This MO was formed by combining one 2p atomic orbital from each atom. O The dark dots in this sketch are the nuclei. Now use the sketch to complete the table below. Write the symbol for this MO. Is this a bonding or antibonding MO? What is the energy of this MO, compared to the energy of a 2p orbital on one of the separate atoms? bonding antibonding higher lower the same not enough information to decide O On X JT Ś ■ *arrow_forwardConstruct the possible bonding, antibonding, and nonbonding molecular orbitals from combinations of two d orbitals [Write the generic wave functions of the molecular orbitals]arrow_forward3arrow_forward
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